A. Rai, S. Ganesh, S. Paul, P. Kasarla, P. Prajapati, D. Sarkar, A. Singh, Pitambar S. Patwal, H. L. Adalja, S. N. Mathur, S. Naik, Amish B. Shah, Kiran S. Baliyan Physical Research Laboratory, Ahmedabad, India., Iit, Gandhinagar, Space Center
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引用次数: 2
摘要
作为PRL即将推出的2.5米望远镜的近红外仪器,NISP是PRL自主设计的多面仪器。光学、机械和电子子系统正在PRL内部设计和开发。它将包括在Y, J, H, Ks波段(即0.8 - 2.5微米)的成像,光谱和成像偏振模式。探测器是来自Teledyne的2K x 2K H2RG (MCT)阵列探测器,在成像模式下将提供10' x 10'的大视场。利用光栅可实现分辨率为R ~ 3000的光谱模式。光谱学将以单一顺序提供,并计划为同时光谱提供交叉分散模式。该仪器使用楔形双沃拉斯顿(WeDoWo)棱镜进行多波长成像偏振测量,同时获得线偏振的单镜头Stokes参数(I, Q, U),从而提高了偏振测量的效率,缩短了观测时间。
Optical aspects of Near-Infrared Imager Spectrometer and Polarimeter instrument (NISP)
As a Near-IR instrument to PRL's upcoming 2.5 m telescope, NISP is designed indigeniously at PRL to serve as a multifaceted instrument. Optical, Mechanical and Electronics subsystems are being designed and developed in-house at PRL. It will consist of imaging, spectroscopy and imaging-polarimetry mode in the wavelength bands Y, J, H, Ks i.e. 0.8 - 2.5 micron. The detector is an 2K x 2K H2RG (MCT) array detector from Teledyne, which will give a large FOV of 10' x 10' in the imaging mode. Spectroscopic modes with resolving power of R ~ 3000, will be achieved using grisms. Spectroscopy will be available in single order and a cross-dispersed mode shall be planned for simultaneous spectra. The instrument enables multi-wavelength imaging-polarimetry using Wedged-Double Wollaston (WeDoWo) prisms to get single shot Stokes parameters (I, Q, U) for linear polarisation simultaneously, thus increasing the efficiency of polarisation measurements and reducing observation time.
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